1.2.5.1	pyruvate + 9,10-anthraquinone-2,6-disulfonic acid + H2O	-	Thauera humireducens	acetate + CO2 + ?	-	?	439856	
1.2.5.1	pyruvate + 9,10-anthraquinone-2,6-disulfonic acid + H2O	-	Thauera humireducens SgZ-1	acetate + CO2 + ?	-	?	439856	
1.2.5.1	pyruvate + a quinone	-	Corynebacterium glutamicum	acetate + CO2 + a quinol	-	?	410975	
1.2.5.1	pyruvate + dimethylmenoquinone + H2O	-	Escherichia coli	acetate + CO2 + dimethylmenoquinol	-	?	439860	
1.2.5.1	pyruvate + ferricyanide	activity assayed photometrically by monitoring the reduction of 2,6-dichloroindophenol	Escherichia coli	acetate + CO2 + ferrocyanide	-	?	412798	
1.2.5.1	pyruvate + ferricyanide + H2O	-	Escherichia coli	acetate + CO2 + ferrocyanide	-	?	412796	
1.2.5.1	pyruvate + ferricyanide + H2O	-	Escherichia coli K-12	acetate + CO2 + ferrocyanide	-	?	412796	
1.2.5.1	pyruvate + ferricyanide + H2O	addition of 1% lauric acid	Escherichia coli	acetate + CO2 + ferrocyanide	-	?	412796	
1.2.5.1	pyruvate + ferricyanide + H2O	enzyme also catalyzes the formation of acetoin from pyruvate and acetaldehyde	Escherichia coli	acetate + CO2 + ferrocyanide	-	?	412796	
1.2.5.1	pyruvate + ferricyanide + H2O	addition of 1% lauric acid	Escherichia coli CG3	acetate + CO2 + ferrocyanide	-	?	412796	
1.2.5.1	pyruvate + ferricytochrome b1 + H2O	-	Escherichia coli	acetate + CO2 + ferrocytochrome b1	-	?	189312	
1.2.5.1	pyruvate + ferricytochrome b1 + H2O	the natural electron acceptor for the reduced enzyme is a cell-membrane-associated electron transport system including both ubiquinone-6- and cytochrome b1, with oxygen being the terminal electron acceptor	Escherichia coli	acetate + CO2 + ferrocytochrome b1	-	?	189312	
1.2.5.1	pyruvate + menaquinone + H2O	-	Escherichia coli	acetate + CO2 + menaquinol	-	?	439861	
1.2.5.1	pyruvate + oxidized 2,6-dichloroindophenol	activity assayed photometrically by monitoring the reduction of 2,6-dichloroindophenol, pH 6.0, 40°C	Corynebacterium glutamicum	acetate + CO2 + reduced 2,6-dichloroindophenol	-	?	412801	
1.2.5.1	pyruvate + oxidized 2,6-dichloroindophenol + H2O	-	Escherichia coli	acetate + CO2 + reduced 2,6-dichloroindophenol	-	?	412800	
1.2.5.1	pyruvate + quinone + H2O	-	Sulfurospirillum multivorans	acetate + CO2 + quinol	-	?	438434	
1.2.5.1	pyruvate + ubiquinol-6 + H2O	the natural electron acceptor for the reduced enzyme is a cell-membrane-associated electron transport system including both ubiquinone-6 and cytochrome b1, with oxygen being the terminal electron acceptor	Escherichia coli	acetate + CO2 + ubiquinol-6	-	?	410977	
1.2.5.1	pyruvate + ubiquinone + H2O	-	Escherichia coli	acetate + CO2 + ubiquinol	-	?	424986	
1.2.5.1	pyruvate + ubiquinone + H2O	-	Corynebacterium glutamicum	acetate + CO2 + ubiquinol	-	?	424986	
1.2.5.1	pyruvate + ubiquinone + H2O	-	Corynebacterium glutamicum	acetate + CO2 + ubiquinol	-	ir	424986	
1.2.5.1	pyruvate + ubiquinone + H2O	-	Corynebacterium glutamicum ATCC 13032	acetate + CO2 + ubiquinol	-	ir	424986	
1.2.5.1	pyruvate + ubiquinone + H2O	-	Corynebacterium glutamicum aceE A16	acetate + CO2 + ubiquinol	-	?	424986	
1.2.5.1	pyruvate + ubiquinone-30 + H2O	ubiquinone-30 is rapidly reduced by pyruvate oxidase only in the presence of palmitic acid	Escherichia coli	acetate + CO2 + ubiquinol-30	-	?	412804	
1.2.5.1	pyruvate + ubiquinone-6 + H2O	-	Escherichia coli	acetate + CO2 + ubiquinol-6	-	?	410978	
1.2.5.1	pyruvate + ubiquinone-8	binding to the phospholipid bilayers is essential for PoxB function in vivo, since ubiquinone, the natural electron acceptor of the enzyme, is dissolved within the membfrane lipid bilayer	Escherichia coli	acetate + CO2 + ubiquinol-8	-	?	410981	
1.2.5.1	pyruvate + ubiquinone-8	the role of quinones in the pyruvate oxidase system is investigated in this paper	Escherichia coli	acetate + CO2 + ubiquinol-8	-	?	410981	
1.2.5.1	pyruvate + ubiquinone-8 + H2O	-	Escherichia coli	acetate + CO2 + ubiquinol-8	-	?	410979